Localization of PPM1H phosphatase tunes Parkinson’s disease-linked LRRK2 kinase-mediated Rab GTPase phosphorylation and ciliogenesis

Abstract

ABSTRACTPPM1H phosphatase reverses Parkinson’s disease-associated, LRRK2-mediated Rab GTPase phosphorylation. We show here that PPM1H relies on an N-terminal amphipathic helix for Golgi localization. The amphipathic helix enables PPM1H to bind to liposomes in vitro, and small, highly curved liposomes stimulate PPM1H activity. We artificially anchored PPM1H to the Golgi, mitochondria, or mother centriole. Our data show that regulation of Rab10 GTPase phosphorylation requires PPM1H access to Rab10 at or near the mother centriole. Moreover, poor co-localization of Rab12 explains in part why it is a poor substrate for PPM1H in cells but not in vitro. These data support a model in which localization drives PPM1H substrate selection and centriolar PPM1H is critical for regulation of Rab GTPase-regulated ciliogenesis. Moreover, Golgi localized PPM1H maintains active Rab GTPases on the Golgi to carry out their non-ciliogenesis-related functions in membrane trafficking.Significance StatementPathogenic, hyperactive LRRK2 kinase is strongly linked to Parkinson’s disease and LRRK2 phosphorylates a subset of Rab GTPases that are master regulators of membrane trafficking. PPM1H phosphatase specifically dephosphorylates Rab8A and Rab10, the major LRRK2 substrates. Here we provide novel cell biological and biochemical insight related to the localization and activation of PPM1H phosphatase. Understanding how PPM1H modulates LRRK2 activity is of fundamental interest and also important, as activators of PPM1H may eventually benefit Parkinson’s disease patients.